@CătălinaSîrbu The 7 probably shouldn't be hardcoded; instead you should base the overflow logic on using the highest value in your enum directly. I'm not sure wrapping around is what you want. Also usually people use operator++ instead of a named function because Game game; game++; looks nicer than Game game; skipToNextPuzzle(game);.
I have trouble understanding why streams must be passed by reference (&). Most answers say "it wouldn't make sense to have two copies that point to the same thing" but why not? Why couldn't it be understood that two different instances do point to the same stream. Or just omit the &?
Say you have std::cout. You make a copy. You print "Hello" to one std::cout and "World" to the other. What is the user supposed to see on the screen?
If your answer is "HelloWorld" then just take a pointer to std::cout and pretend that's the stream. Then you can copy it all you want and it behaves the way you want it to.
Normally copying means to actually copy the object, but there are for example file streams and file systems typically do not allow to have 2 files with the same name and location, so you just cannot copy them.
making the stream object not just represent a stateless handle also makes it easier to introduce additional abstractions and state like they do in C++ with the std::ios::hex and other formatting tags
Now, I happen to think that most of the stateful formatting flags are not ideal, but it's decision they made at the time
Howdy folks. I have little experience with Makefiles and I'm trying to set a default value for an optional argument inside a recipe, like this:
dist:
if [ ! ${VERSION} ]; then VERSION='foo'; else echo "VERSION SET"; fi
echo $(VERSION)
exit 1
I know I could place VERSION ?= "foo" outside the recipe, but I would like to apply this default logic only to this specific recipe, since other recipes also use VERSION parameter
is what I'm trying to do possible in Makefile? Is it against Makefile philosophy in any way and should I give up?
Can someone explain to me the difference between indirection operator and a pointer? I understand that a pointer 'points' to a data type at a specific address in memory, but what is the purpose of a indirection operator?
It's one option, but you can do other things as well. In theory you can return a newly allocated pointer every time and not even have any specific address.
Specifically std::shared_ptr can point to one object that has its memory managed but can return a different object when you dereference it.
Hi, I've asked this question some time ago but here it is again. If you declare a variable inside of a case, function, loop, does this makes it consume more memory? isn't that variable erased after each iteration and redeclared when reetering the function / loop
Generally speaking no, but it can have an impact on initialization
if you declare a complex type and don't immediately initialize it then it has to get default initialized every single time. It also needs to get destroyed at the end of the loop body
But if you're reinitializing the value every single time you're paying those costs anyway so pick your poison. Personally I prefer the limited scope.
it's pretty much only "erased" if it's not trivially destructable. I think even with default compilation setting, without any extra optimizations it doesn't keep increasing/decreasing the stack pointer for every single variable/loop
But can it potentially have impacts: yes, particularly if you're allocating memory every single time you use it. For example I might not put a vector I'm using a buffer inside the loop
because I can just grow it in the loop and then deallocate the memory all at once
IIRC the standard would allow the program to elide the allocations if it can figure out what I'm doing (reserving a set amount for example). But AFAIK no compiler actually does that
I mean there are some things you can collapse to make the code cleaner but the error isn't about running out of memory per se. But about having a code segment that's too big
FWIW if you want to dramatically decrease your generated code size you can make functions that only need to exist in one file exist in an unnamed namespace or as static
without external linkage the compiler can optimize the heck out of them